CN107491191B

CN107491191B - Mouse system with cooling and sweat removing functions

Info

Publication number: CN107491191B
Application number: CN201710959247.XA
Authority: CN
Inventors: 卢杨
Original assignee: Guangxi Nanning Yingfanda Technology Co ltd
Current assignee: Ningbo Yuanzhicube Energy Technology Co ltd
Priority date: 2017-10-16
Filing date: 2017-10-16
Publication date: 2020-12-01
Anticipated expiration: 2037-10-16
Also published as: CN107491191A

Abstract

The invention discloses a mouse system with a cooling and sweat removing function, wherein a left button block, a right button block and a tail block are arranged at the upper part of a shell, a tray is arranged at the lower part of the shell, and a groove is arranged at the inner side of the tray; the tail block is provided with a first through hole, the first through hole is provided with a cooling plate, the cooling plate is provided with meshes, and the cooling plate has the same bending radian as the tail block and is flush with the surface of the tail block; mouse system with cooling removes sweat function still includes: the fingerprint sensing module is arranged in the shell, the groove is provided with a second through hole, and a fingerprint sensing surface is formed at the second through hole and is connected with the processing unit; the pressure sensing module is arranged on the right key block and is connected with the processing unit; the humidity sensing module is arranged on the tail block and connected with the processing unit; the cooling module is arranged in the accommodating space and is connected with the processing unit; wherein, processing unit is according to pressure signal and fingerprint signal control switch, according to humidity signal control cooling module.

Description

Mouse system with cooling and sweat removing functions

Technical Field

The invention relates to the technical field of computer accessories, in particular to a mouse system with a cooling and sweat removing function.

Background

The existing mouse has single function and simple structure, and can not meet the diversity requirements of users gradually, the existing user, especially young users, pursues an individualized mouse, not only requires the mouse to have basic input function, but also likes to carve personal marks on the mouse, and fingerprint identification is one of methods for creating a personal exclusive mouse, which can not be achieved by the existing mouse.

The mouse is opposite to the palm of the human body, and when the mouse is in tension work or games, the palm of the human body can sweat, and the sweat is adhered to the mouse, so that the use of the mouse is influenced, and bacteria are easy to breed.

Therefore, a mouse system with functions of temperature reduction and sweat removal, which comprises a personal mouse and comprises fingerprint identification, is designed, and meets personalized requirements, so that the problem which needs to be solved urgently is solved.

Disclosure of Invention

It is an object of the present invention to address at least the above-mentioned deficiencies and to provide at least the advantages which will be described hereinafter.

In order to achieve these objects and other advantages and in accordance with the purpose of the invention, the present invention provides a mouse system with cooling and sweat-removing functions, comprising a housing, a light-emitting unit, a lens unit and a light-sensing unit disposed inside the housing, a processing unit disposed inside the housing, a storage unit disposed inside the housing, and a communication unit, wherein a left button block, a right button block and a tail block are disposed at an upper portion of the housing, a tray is disposed at a lower portion of the housing, the left button block, the right button block and the tail block are cooperatively disposed above the tray, so that a receiving cavity is formed inside the housing, and an arc-shaped recess is disposed at an inner side of the tray; a first through hole is formed in the middle of the upper surface of the tail block, a cooling plate block is arranged in the first through hole in a matched mode, and meshes are uniformly formed in the cooling plate block; the cooling plate block has the same bending radian as the tail block, so that the cooling plate block is flush with the surface of the tail block when being matched with the first through hole; the arc-shaped groove is matched with the thumb, so that the mouse can be held more comfortably and naturally.

Wherein, mouse system with cooling removes sweat function still includes:

the fingerprint sensing module is arranged in the accommodating space, a second through hole is formed in the arc-shaped groove, a fingerprint sensing surface is formed at the second through hole by the fingerprint sensing module, the fingerprint sensing module is connected with the processing unit, and the fingerprint sensing module is used for sensing a fingerprint signal; according to the gesture habit of holding the mouse, the thumb very easily presses the fingerprint response face for the fingerprint collection is easier more natural.

The pressure sensing module is arranged on the right key block, is connected with the processing unit and is used for sensing a pressure signal; the right key block corresponds to a middle finger or a ring finger, and when a mouse is held by a hand, the middle finger naturally presses down to touch the pressure sensing module, so that pressure signal acquisition is more accurate and natural.

The humidity sensing module is arranged on the tail block and connected with the processing unit, and the humidity sensing module is used for sensing a humidity signal; after mouse uses for a long time, the palm can perspire, can the fast accurate perception condition of perspiring with humidity response module setting at the afterbody to do benefit to the cooling module of processing unit control and blow the cooling.

The cooling module is arranged in the accommodating space and is positioned below the cooling plate, the cooling module is used for refrigerating or blowing air, and the cooling module is connected with the processing unit; when blowing, the air passes through the meshes of the cooling plate and blows to the palm, thereby cooling and removing sweat.

And the processing unit is connected with the switch to control the switch.

The processing unit controls the open circuit and the close circuit of the switch according to the pressure signal of the pressure sensing module and the fingerprint signal of the fingerprint sensing module; the processing unit also controls the operation of the cooling module according to the humidity signal of the humidity sensing module.

Preferably, in the mouse system with the functions of cooling and removing sweat, the storage unit is connected to the processing unit, and a preset fingerprint is recorded in the storage unit, and the processing unit is configured to:

presetting a pressure value; receiving a pressure signal of the pressure sensing module; comparing the pressure value in the pressure signal with the preset pressure value, and receiving the fingerprint signal of the fingerprint sensing module when the pressure value is greater than the preset pressure value; comparing the fingerprint signal with the preset fingerprint; when the fingerprint signal is consistent with the preset fingerprint, switching on the switch to start a mouse; and when the fingerprint signal is inconsistent with the preset fingerprint, keeping the switch open. Whether mouse is used is firstly sensed by utilizing the pressure signal, and then the fingerprint sensing module is started to carry out fingerprint identification, so that the power source is prevented from being wasted, and the identification is more accurate and efficient.

Preferably, in the mouse system with the functions of cooling and removing sweat, the cooling module includes:

the air duct is of a cylindrical structure, two ends of the air duct are open, the air duct is vertical or arranged in the accommodating cavity, the upper opening of the air duct corresponds to the cooling plate, and the wall of the air duct is provided with air holes; the air hole is helpful for air suction and can also take away heat inside the mouse. Vertical setting can make the dryer as the inside pillar of mouse, and structural strength is higher.

The micro motor and the fan blades are arranged inside the cylinder, and the micro motor and the fan blades are matched to blow air to the cooling plate. The micro motor runs stably, has small vibration and cannot influence the use of the mouse. Meanwhile, the humidity of the palm of the hand is higher when the micro motor runs, and the micro vibration is helpful for reminding a user to take a rest and relax.

Preferably, the mouse system with cooling and sweat removing functions, the tray is provided with a third through hole, the through hole is located under the cooling plate or obliquely below the cooling plate, the third through hole is circular and has the same size as the diameter of the air duct, and the lower opening of the air duct is matched with the third through hole. The mouse pad is beneficial to air suction, and meanwhile when the micro motor reversely blows air to the third through hole, the air flow blows on the mouse pad, the reaction force can offset a part of gravity, and the mouse moves on the mouse pad more smoothly.

Preferably, in the mouse system with cooling and sweat removing functions, the processing unit is configured to:

presetting a humidity value; receiving a humidity signal of the humidity sensing module; comparing a humidity signal to the humidity value; and when the humidity is greater than a preset value, controlling the cooling module to operate so as to blow air to cool the cooling plate. The humidity condition of perspiring of palm of the hand can be responded to, and when the palm of the hand perspires and leads to humidity to rise, the cooling module is blown and is cooled down, blows away the moisture of palm of the hand simultaneously.

Preferably, the mouse system with the functions of cooling and removing sweat is characterized in that a balancing weight is further arranged on the tray and comprises a left balancing weight and a right balancing weight, the left balancing weight and the right balancing weight are correspondingly arranged below the left button block and the right button block, the connecting line of the left balancing weight, the right balancing weight and the air duct is an isosceles triangle, and the left balancing weight and the right balancing weight are symmetrical to the air duct. The weight is increased, so that the mouse is better in hand feeling, more stable in sliding and free of floating, meanwhile, the weight is uniformly distributed due to the symmetrical arrangement, the condition of light head and heavy foot cannot be generated, and the user experience is better.

Preferably, mouse system with cooling removes sweat function in, the afterbody piece is the arc structure of downwarping, afterbody piece back of the body about both sides arch form left back of the body and right back of the body, follow left side back of the body and right back of the body have seted up left bar hole and right bar hole respectively, left side bar hole with have the bar downthehole cooperation respectively to be provided with gasbag or elastomer. Two ridges on the back of a common mouse form a certain angle, so that the mouse is easy to jack a hand and is difficult to feel after long-term use, and therefore, the ridges of some mice are made smooth or have a certain radian. However, the inventor finds that if the ridges are hollowed out and filled with the air bags or the elastic bodies, the air bags and the elastic bodies are in flexible contact with the palms when in use, so that the palms are not uncomfortable, and the massage and relaxation effect can be achieved.

Preferably, in the mouse system with the functions of cooling and removing sweat, the cooling plate is prepared by the following method:

selecting a metal plate with the thickness of 0.1-2 cm, uniformly forming a plurality of meshes with the aperture of 1-2 mm on the metal plate, simultaneously uniformly forming a plurality of coarse holes with the aperture of 3-5 mm, and forming a plurality of linear grooves with the width of 3-8 mm and the depth of one third or one half of the thickness of the metal plate along the surface of the metal plate; mixing nano titanium dioxide powder, ceramic powder, expanded graphite and active carbon according to the proportion of 1: 3-4: 5-6: stirring and mixing the components according to the mass ratio of 8-9 under a high-pressure environment to obtain a mixed material; mixing the mixed material and resin according to a certain proportion to form colloid, and filling the colloid in the coarse holes and the linear grooves; and finally, manufacturing the metal plate into a shape matched with the first through hole to obtain the cooling plate. Titanium dioxide powder has good hygroscopic property, mixes back with titanium dioxide and ceramic powder, expanded graphite and active carbon, and titanium dioxide powder enters into the micropore of these matters, not only can permanent performance effect, also more wear-resisting simultaneously, and the bold hole directly contacts with the palm of human hand with the recess, helps absorbing sweat and moisture away to the disinfection of disinfecting.

Preferably, in the mouse system with the functions of cooling and removing sweat, the particle size of the nano titanium dioxide powder is 15-50 nanometers, the particle size of the ceramic powder is 1-1.5 millimeters, the particle size of the expanded graphite is 0.5 millimeter, and the activated carbon is coconut shell activated carbon with the particle size of 0.5-1 millimeter. So that the titanium dioxide powder can be better inserted into the micropores of the porous substances.

Preferably, the mouse system with cooling and sweat removing functions, the linear groove is along the vertical setting of metal sheet surface, make the metal sheet cooperate extremely behind the first through-hole, the direction of linear groove is unanimous with the length direction of mouse, recess equidistance parallel arrangement. The tail part of the mouse is bent downwards, sweat generally flows downwards along the tail part of the mouse, and the extending direction of the groove is consistent with the length direction of the mouse, so that the material in the groove can absorb more sweat and absorb more moisture.

The invention at least comprises the following beneficial effects:

the mouse system comprises the fingerprint sensing module and the pressure sensing module, can sense the using state of the mouse through pressure, then starts the fingerprint sensing module to carry out fingerprint identification on a user, and only the user who passes the fingerprint identification can use the mouse, so that the mouse has stronger specificity and better identity of the user to the mouse.

The mouse system with the functions of cooling and removing sweat is further provided with the humidity sensing module and the cooling module, the humidity sensing module corresponds to the palm, the sweating condition of the palm can be sensed, when the humidity is too high, the cooling module in the mouse can be started to blow air for cooling, and user experience is improved.

The cooling plate disclosed by the invention is prepared by combining special materials, can effectively absorb sweat and moisture, is wear-resistant and durable, and is capable of sterilizing.

Additional advantages, objects, and features of the invention will be set forth in part in the description which follows and in part will become apparent to those having ordinary skill in the art upon examination of the following or may be learned from practice of the invention.

Drawings

FIG. 1 is a schematic structural diagram of a mouse system with cooling and sweat removing functions according to the present invention;

FIG. 2 is a left side view of the mouse system with cooling and sweat removing functions according to the present invention;

FIG. 3 is a hardware architecture diagram of the mouse system with cooling and sweat-removing functions according to the present invention;

fig. 4 is a schematic structural view of a cooling plate according to the present invention;

fig. 5 is a schematic structural diagram of the cooling module according to the present invention.

Detailed Description

The present invention is further described in detail below with reference to the attached drawings so that those skilled in the art can implement the invention by referring to the description text.

As shown in fig. 1, 2, 3, 4 and 5, a mouse system with cooling and sweat removing functions comprises a housing, a light emitting unit, a lens unit and a light sensing unit arranged inside the housing, a processing unit arranged inside the housing, a storage unit arranged inside the housing, and a communication unit, wherein the storage unit can be edited in advance, such as storing fingerprint information in advance, writing small programs in advance, and the like, the processing unit is connected with the storage unit, and if the mouse system is a wireless mouse, the communication unit can be in wireless communication, and if the mouse system is a wired mouse, the communication unit can be in wired communication.

Wherein, in order to do benefit to the function that embodies this mouse system that has the cooling and remove sweat function more, improve the shell, be about being about to the shell and decompose into two parts, the concatenation formation can be dismantled to two parts. The upper part of the shell is composed of a left key block 1, a right key block 3 and a tail block 3, the lower part of the shell is a tray 4, the left key block 1, the right key block 2 and the tail block 3 are combined and covered above the tray 4, so that an accommodating cavity is formed in the shell, and an inward-concave arc-shaped groove 5 is formed in the position, corresponding to a thumb, of the inner side of the tray 4; the middle part of the upper surface of the tail block is provided with a first through hole 8, the first through hole is provided with a cooling plate 9 in a matching way, meshes 10 are uniformly arranged on the cooling plate, the size of the meshes is determined according to the situation, and the main function of the cooling plate is to enable gas to be sprayed out from the inside or suck gas from the outside; the cooling plate block has the same bending radian as the tail block, so that the cooling plate block is flush with the surface of the tail block when being matched with the first through hole.

In addition to the above, the mouse system with cooling and sweat removing functions further comprises:

fingerprint response module, its setting is in inside the accommodation space, just be provided with second through-hole 7 in the arc recess 5, fingerprint response module in second through-hole 7 department forms the fingerprint response face, and fingerprint response module can outstanding second through-hole, also can inwards cave in a little, fingerprint response module with processing unit connects, fingerprint response module is used for responding to fingerprint signal, gathers fingerprint signal after transmission to processing unit.

And the pressure sensing module 6 is arranged on the right key block 2, is generally arranged in the middle of the right key block and corresponds to the middle finger or the ring finger, is connected with the processing unit, and is used for sensing a pressure signal and transmitting the pressure signal to the processing unit after acquiring the pressure signal.

Humidity induction module, it sets up on the afterbody piece 6, generally be in the middle of the afterbody piece position or near first through-hole 8, this position is corresponding with the palm center, humidity induction module with processing unit connects, humidity induction module is used for responding to humidity signal, transmits to processing unit after gathering humidity signal.

The cooling module 13 is arranged in the accommodating space and below the cooling plate 9, and is used for blowing air to the cooling plate 9 for cooling, and the cooling module is connected with the processing unit; the cooling module can also be a refrigeration module, but a miniature refrigeration module is difficult to prepare, and also can be a fan module, and the miniature fan can vibrate little and has enough air volume, and can refrigerate by a built-in chemical package.

The processing unit is connected with the switch to control the switch, and the processing unit can achieve the purpose of starting or closing the mouse by controlling the switch.

Further, the storage unit is connected with the processing unit, and a preset fingerprint is recorded in the storage unit, the processing unit is configured to:

the preset pressure value, for example the dynamics that general people's finger pressed the mouse key is 10N, can set up 10N with the preset pressure value then, can judge someone and be trying to use mouse when the pressure value is greater than or equal to 10N, when the pressure value is less than 10N, filters pressure signal, avoids interfering, improves the discernment accuracy.

Receiving a pressure signal of the pressure sensing module; when the pressure sensing module senses a pressure signal, the pressure signal is transmitted to the processing unit, and the processing unit analyzes the pressure and compares the pressure with a preset pressure value.

Comparing the pressure value in the pressure signal with the preset pressure value, and receiving the fingerprint signal of the fingerprint sensing module when the pressure value is greater than the preset pressure value; comparing the fingerprint signal with the preset fingerprint; when the fingerprint signal is consistent with the preset fingerprint, switching on the switch to start a mouse; and when the fingerprint signal is inconsistent with the preset fingerprint, keeping the switch open.

Further, as shown in fig. 5, the cooling module 13 includes:

the air duct 14 is of a cylindrical structure, two ends of the air duct 14 are open, the air duct 14 is vertically or obliquely arranged in the accommodating cavity, the upper opening corresponds to the cooling plate 9, and the wall of the air duct 14 is provided with air holes 15.

A micro motor 16 and fan blades 17 arranged inside the air duct 14, wherein the micro motor 16 and the fan blades 17 are matched to blow air to the cooling plate.

Further, the bottom of tray is provided with the third through-hole, the through-hole is located directly below the cooling plate or below to one side, the third through-hole be circular and with the diameter of dryer is equidimension, the under shed cooperation of dryer 14 extremely the third through-hole.

Further, the processing unit is configured to:

presetting a humidity value; when the palm sweats, the humidity sensing module can obviously sense the change of humidity, when the humidity reaches a certain degree, a humidity signal is transmitted to the processing unit, the humidity value is set according to different regions, the dry region can be set to be lower, the wet region can be set to be higher, and the humidity value is generally set to be higher than the air humidity, for example, 5-10% higher than the indoor air humidity.

Receiving a humidity signal of the humidity sensing module; and after receiving the humidity signal, the processing unit analyzes the humidity.

Comparing a humidity signal to the humidity value; and when the humidity is greater than a preset value, controlling the cooling module to operate so as to blow air to cool the cooling plate.

Further, still be provided with the balancing weight on tray 4, the balancing weight includes left balancing weight and right balancing weight, controls two balancing weights and corresponds the setting and press a button 1 and press a button 2 below on the left side with the right side, left side balancing weight, right balancing weight and dryer 14's line is isosceles triangle, just left side balancing weight and right balancing weight about the dryer symmetry. And the mass ratio of the left balancing weight to the right balancing weight to the air duct is 3:3:2 or 2:2: 3.

Further, the afterbody piece is the arc structure of downwarping, both sides are protruding to form left back and right back about afterbody piece back, follow left side back and right back have seted up left bar hole and right bar hole respectively, left side bar hole with have the bar downthehole cooperation respectively to be provided with gasbag or elastomer.

Further, as shown in fig. 4, the cooling plate 9 is prepared by the following method:

selecting a metal plate with the thickness of 0.1-2 cm, uniformly forming a plurality of meshes 10 with the aperture of 1-2 mm on the metal plate, simultaneously uniformly forming a plurality of coarse holes 11 with the aperture of 3-5 mm, and forming a plurality of grooves 12 with the width of 3-8 mm and the depth of one third or one half of the thickness of the metal plate along the surface of the metal plate. Preferably a copper plate or a steel plate.

Mixing nano titanium dioxide powder, ceramic powder, expanded graphite and active carbon according to the proportion of 1: 3-4: 5-6: stirring and mixing the components according to the mass ratio of 8-9 under a high-pressure environment to obtain a mixed material; for example, 10-12 atmospheres, to facilitate the access of the titanium dioxide powder to the interior of the pores of the material.

Mixing the mixed material and resin according to a certain proportion to form colloid, and filling the colloid in the coarse holes 11 and the grooves 12; the mixing ratio is preferably 2-3:1, too little resin causes easy dispersion and low durability of the material, and too much resin covers the surface of the mixed material to prevent the mixed material from contacting air, thereby preventing moisture absorption. However, in use, the resin is abraded away and can be exposed to the air as well, so as to achieve the effects of moisture absorption and sterilization.

And finally, manufacturing the metal plate into a shape matched with the first through hole to obtain the cooling plate. Such as pressing to conform to the curvature, size, etc. of the mouse.

Further, the particle size of the nano titanium dioxide powder is 15-50 nanometers, the particle size of the ceramic powder is 1-1.5 millimeters, the particle size of the expanded graphite is 0.5 millimeter, and the activated carbon is coconut shell activated carbon with the particle size of 0.5-1 millimeter.

Further, the recess is followed the vertical setting in metal sheet surface makes the metal sheet cooperation extremely behind the first through-hole, the direction of recess is unanimous with the length direction of mouse, recess equidistance parallel arrangement.

While embodiments of the invention have been disclosed above, it is not intended to be limited to the uses set forth in the specification and examples. It can be applied to all kinds of fields suitable for the present invention. Additional modifications will readily occur to those skilled in the art. It is therefore intended that the invention not be limited to the exact details and illustrations described and illustrated herein, but fall within the scope of the appended claims and equivalents thereof.

Claims

1. A mouse system with functions of cooling and removing sweat comprises a shell, a light-emitting unit, a lens unit, a light sensing unit, a processing unit, a storage unit and a communication unit, wherein the light-emitting unit, the lens unit and the light sensing unit are arranged inside the shell; the middle part of the upper surface of the tail block is provided with a first through hole, the first through hole is matched with a cooling plate block, meshes are uniformly arranged on the cooling plate block, and the cooling plate block has the same bending radian as the tail block, so that the cooling plate block is flush with the surface of the tail block when being matched with the first through hole;

wherein, mouse system with cooling removes sweat function still includes:

the fingerprint sensing module is arranged in the accommodating space, a second through hole is formed in the arc-shaped groove, a fingerprint sensing surface is formed at the second through hole by the fingerprint sensing module, the fingerprint sensing module is connected with the processing unit, and the fingerprint sensing module is used for sensing a fingerprint signal;

the pressure sensing module is arranged on the right key block and is flush with the surface of the right key block, the pressure sensing module is connected with the processing unit, and the pressure sensing module is used for sensing a pressure signal;

the humidity sensing module is arranged on the tail block and connected with the processing unit, and the humidity sensing module is used for sensing a humidity signal;

the cooling module is arranged in the accommodating space and is positioned below the cooling plate, the cooling module is used for refrigerating or blowing air, and the cooling module is connected with the processing unit; and

the switch is connected with a built-in power supply or an external power supply, and the processing unit is connected with the switch to control the switch;

the processing unit controls the open circuit and the close circuit of the switch according to the pressure signal of the pressure sensing module and the fingerprint signal of the fingerprint sensing module; the processing unit also controls the operation of the cooling module according to the humidity signal of the humidity sensing module;

the storage unit is connected with the processing unit, and preset fingerprints are recorded in the storage unit, and the processing unit is configured to:

presetting a pressure value;

receiving a pressure signal of the pressure sensing module;

comparing the pressure value in the pressure signal with the preset pressure value, and receiving the fingerprint signal of the fingerprint sensing module when the pressure value is greater than the preset pressure value;

comparing the fingerprint signal with the preset fingerprint;

when the fingerprint signal is consistent with the preset fingerprint, switching on the switch to start a mouse;

when the fingerprint signal is inconsistent with the preset fingerprint, keeping the switch open;

the tail block is of a downward-bent arc-shaped structure, the left side and the right side of the back of the tail block are protruded to form a left back and a right back, a left strip-shaped hole and a right strip-shaped hole are respectively formed along the left back and the right back, and an air bag or an elastic body is respectively arranged in the left strip-shaped hole and the strip-shaped hole in a matched manner;

the cooling plate is prepared by the following method:

selecting a metal plate with the thickness of 0.1-2 cm, uniformly forming a plurality of meshes with the aperture of 1-2 mm on the metal plate, simultaneously uniformly forming a plurality of coarse holes with the aperture of 3-5 mm, and forming a plurality of grooves with the width of 3-8 mm and the depth of one third or one half of the thickness of the metal plate along the surface of the metal plate;

mixing nano titanium dioxide powder, ceramic powder, expanded graphite and active carbon according to the proportion of 1: 3-4: 5-6: stirring and mixing the components according to the mass ratio of 8-9 under a high-pressure environment to obtain a mixed material;

mixing the mixed material and resin according to a certain proportion to form colloid, and filling the colloid in the coarse holes and the grooves;

finally, the metal plate is made into a shape matched with the first through hole, and the cooling plate is obtained;

the particle size of the nano titanium dioxide powder is 15-50 nanometers, the particle size of the ceramic powder is 1-1.5 millimeters, the particle size of the expanded graphite is 0.5 millimeter, and the activated carbon is coconut shell activated carbon with the particle size of 0.5-1 millimeter;

the grooves are vertically arranged along the surface of the metal plate, so that after the metal plate is matched with the first through hole, the direction of the grooves is consistent with the length direction of the mouse, and the grooves are arranged in parallel at equal intervals;

the cooling module includes:

the air duct is of a cylindrical structure, two ends of the air duct are open, the air duct is vertically or obliquely arranged in the accommodating cavity, the upper opening of the air duct corresponds to the cooling plate, and the wall of the air duct is provided with air holes;

the micro motor and the fan blades are arranged inside the air duct and are matched with each other to blow air to the cooling plate;

the tray is provided with a third through hole, the through hole is positioned right below or obliquely below the cooling plate, the third through hole is circular and has the same diameter as the air duct, and the lower opening of the air duct is matched with the third through hole;

the tray is further provided with a balancing weight, the balancing weight comprises a left balancing weight and a right balancing weight, the left balancing weight and the right balancing weight are correspondingly arranged below the left key block and the right key block, the connecting line of the left balancing weight, the right balancing weight and the air duct is an isosceles triangle, and the left balancing weight and the right balancing weight are symmetrical relative to the air duct.

2. The mouse system with cooling and sweat removing functions as claimed in claim 1, wherein the processing unit is configured to:

presetting a humidity value;

receiving a humidity signal of the humidity sensing module;

comparing a humidity signal to the humidity value;

and when the humidity is greater than a preset value, controlling the cooling module to operate so as to blow air to cool the cooling plate.